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Availability date: 2026-04-02
Version: Global Version
The Bambu Lab H2D Pro is a professional dual-nozzle FDM 3D printer designed for demanding users who require high-speed printing, engineering material capability, intelligent monitoring, and stable large-format performance. With a rigid aluminum and steel chassis, active chamber heating, advanced cooling control, and a 350°C hotend, it is built for both everyday production and high-performance material workflows.
The dual-nozzle system provides greater flexibility for multi-material printing, support-material workflows, and complex part production. Depending on the print mode, the H2D Pro offers a build volume of up to 325 × 320 × 325 mm for single-nozzle printing, while also supporting dual-nozzle and two-nozzle workflow configurations.
For professional environments, the H2D Pro includes advanced air purification, built-in high-resolution cameras, Ethernet and Wi-Fi connectivity, network control options, and intelligent processing hardware. It is suitable for engineering teams, product designers, research labs, educational institutions, and production users who need a capable and scalable 3D printing platform.
Dual-nozzle FDM 3D printing platform
Up to 325 × 320 × 325 mm single-nozzle build volume
350°C all-metal hotend with tungsten carbide nozzle
Active chamber heating up to 65°C
Heated bed up to 120°C
Toolhead speed up to 1000 mm/s and acceleration up to 20,000 mm/s²
Built-in live view, nozzle, and toolhead cameras
Advanced air purification with pre-filter, HEPA, and activated carbon filtration
The H2D Pro is designed for flexible dual-nozzle printing. Single-nozzle printing provides a large 325 × 320 × 325 mm build volume, while dual-nozzle printing supports 300 × 320 × 320 mm. The total available volume across the two nozzles is 350 × 320 × 320 mm.
This dual-nozzle configuration is useful for multi-material parts, soluble support workflows, engineering prototypes, and models that benefit from dedicated material paths.
The H2D Pro includes an all-metal hotend, hardened steel extruder gear, and tungsten carbide nozzle as standard. With a maximum nozzle temperature of 350°C and active chamber heating up to 65°C, the printer is suitable for a wide range of materials, from common filaments such as PLA and PETG to advanced engineering materials including PA, PC, PPS, PPA-CF/GF, and fiber-reinforced composites.
The 120°C heated bed and controlled chamber environment help reduce warping and improve layer bonding when printing high-temperature materials.
With a maximum toolhead speed of 1000 mm/s, acceleration up to 20,000 mm/s², and hotend flow up to 40 mm³/s, the H2D Pro is designed for fast production without losing the stability required for professional printing.
This combination allows the printer to support rapid prototyping, batch production, and demanding print jobs where both speed and reliability matter.
The printer features active chamber heating together with multiple closed-loop cooling systems. Part cooling, hotend cooling, main control board cooling, chamber exhaust, chamber heat circulation, auxiliary part cooling, and toolhead enhanced cooling are all controlled to maintain stable printing conditions.
This level of thermal control helps improve print consistency across different materials and reduces the risk of print quality issues caused by unstable temperatures.
The H2D Pro includes an integrated air purification system with a G3 pre-filter, H12 HEPA filter, and granulated coconut shell activated carbon filter. This supports particulate matter filtration and improved VOC filtration, making it more suitable for professional environments where engineering materials are used regularly.
Proper room ventilation is still recommended, especially when printing materials such as ABS, ASA, PC, PA, and other high-temperature filaments.
The printer includes three built-in 1920 × 1080 cameras: a live view camera, nozzle camera, and toolhead camera. These cameras support better print monitoring, troubleshooting, and visual inspection during operation.
Additional sensors include door detection, filament run-out detection, filament tangle detection, power loss recovery, and filament odometry when used with AMS. These systems help reduce failed prints and improve reliability during long or complex jobs.
The H2D Pro supports both Ethernet and Wi-Fi connectivity, with a removable network module, network kill switch, and 802.1X network access control. This makes it suitable for professional, educational, and business environments where network security and controlled access are important.
Users can control the printer through the touchscreen, mobile app, or PC app, with Bambu Studio as the recommended slicer.
The H2D Pro is compatible with Bambu Lab AMS systems for automated filament handling, multi-color printing, multi-material workflows, and filament drying support. AMS 2 Pro supports sealed storage, RFID identification, active moisture discharge, and temperature/humidity monitoring up to 65°C.
For higher-temperature drying requirements, AMS HT supports drying temperatures up to 85°C, rotating drying mode, sealed storage, filament odometry, and real-time temperature and humidity monitoring.
| Specification | Details |
|---|---|
| Printing Technology | Fused Deposition Modeling |
| Chassis | Aluminum and Steel |
| Outer Frame | Plastic and Glass |
| Physical Dimensions | 492 × 514 × 626 mm |
| Net Weight | 31 kg |
| Working Temperature | 10–30°C |
| Print Mode | Build Volume |
|---|---|
| Single Nozzle Printing | 325 × 320 × 325 mm |
| Dual Nozzle Printing | 300 × 320 × 320 mm |
| Total Volume for Two Nozzles | 350 × 320 × 320 mm |
| Specification | Details |
|---|---|
| Hotend | All Metal |
| Extruder Gear | Hardened Steel |
| Nozzle Material | Tungsten Carbide |
| Maximum Nozzle Temperature | 350°C |
| Included Nozzle Diameter | 0.4 mm |
| Supported Nozzle Diameters | 0.2 mm, 0.4 mm, 0.6 mm, 0.8 mm |
| Filament Cutter | Built-in |
| Filament Diameter | 1.75 mm |
| Extruder Motor | Bambu Lab High-precision Permanent Magnet Synchronous Motor |
| Specification | Details |
|---|---|
| Build Plate Material | Flexible Steel Plate |
| Included Build Plate | Textured PEI Plate |
| Supported Build Plates | Textured PEI Plate, Smooth PEI Plate |
| Maximum Heatbed Temperature | 120°C |
| Active Chamber Heating | Supported |
| Maximum Chamber Temperature | 65°C |
| Specification | Details |
|---|---|
| Maximum Toolhead Speed | 1000 mm/s |
| Maximum Toolhead Acceleration | 20,000 mm/s² |
| Maximum Hotend Flow | 40 mm³/s |
| Specification | Details |
|---|---|
| Pre-filter Grade | G3 |
| HEPA Filter Grade | H12 |
| Activated Carbon Filter | Granulated Coconut Shell |
| VOC Filtration | Superior |
| Particulate Matter Filtration | Supported |
| Cooling Component | Control Type |
|---|---|
| Part Cooling Fan | Closed Loop Control |
| Hotend Cooling Fan | Closed Loop Control |
| Main Control Board Fan | Closed Loop Control |
| Chamber Exhaust Fan | Closed Loop Control |
| Chamber Heat Circulation Fan | Closed Loop Control |
| Auxiliary Part Cooling Fan | Closed Loop Control |
| Toolhead Enhanced Cooling Fan | Closed Loop Control |
| Material Category | Supported Materials |
|---|---|
| Optimal | PLA, PETG, TPU, PVA, BVOH |
| Superior | ABS, ASA, PC, PA, PET, carbon/glass fiber reinforced PLA, PETG, PA, PET, PC, ABS, ASA |
| Ideal | PPA-CF/GF, PPS, PPS-CF/GF |
| Feature | Details |
|---|---|
| Live View Camera | Built-in, 1920 × 1080 |
| Nozzle Camera | Built-in, 1920 × 1080 |
| Toolhead Camera | Built-in, 1920 × 1080 |
| Door Sensor | Supported |
| Filament Run-out Sensor | Supported |
| Filament Tangle Sensor | Supported |
| Filament Odometry | Supported with AMS |
| Power Loss Recovery | Supported |
| Specification | Details |
|---|---|
| Touchscreen | 5-inch 720 × 1280 Touchscreen |
| Storage | Built-in 32 GB EMMC and USB Port |
| Control Interface | Touchscreen, Mobile App, PC App |
| Motion Controller | Dual-core Cortex-M4 and Single-core Cortex-M7 |
| Application Processor | Quad-core 1.5 GHz ARM A7 |
| Neural Processing Unit | 2 TOPS |
| Slicer | Bambu Studio |
| Third-party Slicer Support | Standard G-code export supported, advanced features may be limited |
| Supported Operating Systems | macOS, Windows |
| Specification | Details |
|---|---|
| Ethernet | Available |
| Ethernet Port | RJ45 |
| Ethernet Speed | 100 Mbps Full-Duplex |
| Wireless Network | Wi-Fi |
| Wi-Fi Protocol | IEEE 802.11 a/b/g/n |
| Network Kill Switch | Wi-Fi |
| Removable Network Module | Available |
| 802.1X Network Access Control | Available |
| Specification | Details |
|---|---|
| Voltage | 100–120 VAC / 200–240 VAC, 50/60 Hz |
| Maximum Power | 2200W @ 220V / 1320W @ 110V |
Please select the correct version according to the local voltage in your region.
| Specification | Details |
|---|---|
| Dimensions | 372 × 280 × 226 mm |
| Net Weight | 2.5 kg |
| Housing Material | ABS / PC |
| Filament Diameter | 1.75 mm |
| Spool Width | 50–68 mm |
| Spool Diameter | 197–202 mm |
| RFID Identification | Supported |
| Highest Temperature | 65°C |
| Active Moisture Discharge | Supported |
| Sealed Storage | Supported |
| Temperature and Humidity Detection | Supported |
| Input | 24V 4A |
PLA, PETG, ABS, ASA, PET, PA, PC, dried PVA, dried BVOH, PP, POM, HIPS, Bambu PLA-CF, PAHT-CF, PETG-CF, Support for PLA/PETG, and TPU for AMS.
TPE, generic TPU, damp PVA, damp BVOH, Bambu PET-CF, TPU 95A, and other filaments containing carbon fiber or glass fiber unless specifically supported.
| Specification | Details |
|---|---|
| Dimensions | 114 × 280 × 245 mm |
| Net Weight | 1.21 kg |
| Housing Material | PC / PA |
| Flame Retardant Grade | UL 94 V-0 |
| Screen | Displays temperature, humidity, and remaining drying duration |
| Filament Diameter | 1.75 mm |
| Spool Width | 50–68 mm |
| Spool Diameter | 197–202 mm |
| RFID Identification | Supported |
| Filament Odometry | Supported |
| Maximum Temperature | 85°C |
| Active Moisture Discharge | Supported |
| Rotating Drying Mode | Supported |
| Sealed Storage | Supported |
| Top Lid Open Detection | Supported |
| Temperature and Humidity Detection | Supported |
| Voltage | DC 24V / AC 100–240V, 50/60Hz |
| Average Power | 150W |
PLA, PETG, Support for PLA/PETG, ABS, ASA, PET, PA, PC, PVA, BVOH, PP, POM, HIPS, Bambu PLA-CF, PAHT-CF, PETG-CF, and TPU for AMS.
The bypass filament outlet supports TPE, generic TPU, Bambu PET-CF, TPU 95A, and other filaments containing carbon fiber or glass fiber.
Damp PVA and damp BVOH.
Engineering prototypes
Functional end-use parts
High-temperature material printing
Carbon fiber and glass fiber reinforced filament printing
Product development
Research and education
Professional design studios
Small-batch manufacturing
Multi-material printing
Soluble support workflows
Industrial fixtures and tooling
Advanced material testing
Bambu Studio
Bambu Handy App
Bambu Lab AMS 2 Pro
Bambu Lab AMS HT
Textured PEI Plate
Smooth PEI Plate
1.75 mm FDM filaments
Standard G-code workflows from supported third-party slicers
Note:
3D printers are supplied as semi-assembled kits. Assembly is straightforward and typically takes only a few minutes, depending on the user's experience.
The customer is responsible for assembling the printer. However, the we will provide technical assistance and guidance whenever required.

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